Difference between revisions of "Comparison of Neo-Hookean Materials"
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# [[Clamped Neo-Hookean Material]] | # [[Clamped Neo-Hookean Material]] | ||
The first is always a neo-Hookean material. The second has three properties for bulk modulus (K) and two shear modulus (G<sub>1</sub> and G<sub>2</sub>). Is can be considered as neo-Hooken that reduce to small strain material with same bulk modulus and shear modulus G = G<sub>1</sub>+ G<sub>2</sub>. The third allows plastic deformation by limiting the amount of elongation in tension or compressure. By turning off the clamping, the [[Clamped Neo-Hookean Material|clamped neo-Hookean material]] represents a | The first is always a neo-Hookean material. The second has three properties for bulk modulus (K) and two shear modulus (G<sub>1</sub> and G<sub>2</sub>). Is can be considered as neo-Hooken that reduce to small strain material with same bulk modulus and shear modulus G = G<sub>1</sub>+ G<sub>2</sub>. The third allows plastic deformation by limiting the amount of elongation in tension or compressure. By turning off the clamping, the [[Clamped Neo-Hookean Material|clamped neo-Hookean material]] represents a modified corotated elasticity law. | ||
== Elastic Energy Functions == | |||
[[Material | The elastic energy functions for these three material compared are: | ||
# [[Neo-Hookean Material]] | |||
# [[Mooney Material]] | |||
# [[Clamped Neo-Hookean Material]] | |||
Revision as of 14:37, 16 November 2017
Introduction
The definition of an isotropic, neo-Hookean is an elastic material that depends ot two elastic constants and in the limit of small deformations is identical to a small-strain, linear-elastic, Hookean material. The currently available MPM Materials that a neo-Hookean material options are:
The first is always a neo-Hookean material. The second has three properties for bulk modulus (K) and two shear modulus (G1 and G2). Is can be considered as neo-Hooken that reduce to small strain material with same bulk modulus and shear modulus G = G1+ G2. The third allows plastic deformation by limiting the amount of elongation in tension or compressure. By turning off the clamping, the clamped neo-Hookean material represents a modified corotated elasticity law.
Elastic Energy Functions
The elastic energy functions for these three material compared are: